Meloidogyne enterolobii-induced Changes in Guava Root Exudates Are Associated With Root Rotting Caused by Neocosmospora falciformis.

IF 1.4 4区 生物学 Q2 ZOOLOGY Journal of nematology Pub Date : 2023-12-31 eCollection Date: 2023-02-01 DOI:10.2478/jofnem-2023-0055
Ricardo M Souza, Denilson F Oliveira, Vicente M Gomes, Abraão J S Viana, Geraldo H Silva, Alan R T Machado
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Abstract

Despite the worldwide importance of disease complexes involving root-feeding nematodes and soilborne fungi, there have been few in-depth studies on how these organisms interact at the molecular level. Previous studies of guava decline have shown that root exudates from Meloidogyne enterolobii-parasitized guava plants (NP plants), but not from nematode-free plants (NF plants), enable the fungus Neocosmospora falciformis to rot guava roots, leading to plant death. To further characterize this interaction, NP and NF root exudates were lyophilized; extracted with distinct solvents; quantified regarding amino acids, soluble carbohydrates, sucrose, phenols, and alkaloids; and submitted to a bioassay to determine their ability to enable N. falciformis to rot the guava seedlings' roots. NP root exudates were richer than NF root exudates in amino acids, carbohydrates, and sucrose. Only the fractions NP-03 and NP-04 enabled fungal root rotting. NP-03 was then sequentially fractionated through chromatographic silica columns. At each step, the main fractions were reassessed in bioassay. The final fraction that enabled fungal root rotting was submitted to analysis using high performance liquid chromatography, nuclear magnetic resonance, mass spectrometry, energy-dispersive X-ray fluorescence, and computational calculations, leading to the identification of 1,5-dinitrobiuret as the predominant substance. In conclusion, parasitism by M. enterolobii causes an enrichment of guava root exudates that likely favors microorganisms capable of producing 1,5-dinitrobiuret in the rhizosphere. The accumulation of biuret, a known phytotoxic substance, possibly hampers root physiology and the innate immunity of guava to N. falciformis.

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Meloidogyne enterolobii 诱导的番石榴根部渗出物变化与 Neocosmospora falciformis 引起的根腐病有关。
尽管涉及根食线虫和土传真菌的病害复合体在全球范围内都很重要,但对这些生物如何在分子水平上相互作用的深入研究却很少。以前对番石榴衰退的研究表明,被 Meloidogyne enterolobii 寄生的番石榴植株(NP 植株)的根部渗出物,而不是无线虫植株(NF 植株)的根部渗出物,能使真菌 Neocosmospora falciformis 腐烂番石榴根部,导致植株死亡。为了进一步描述这种相互作用,对 NP 和 NF 根部渗出物进行冻干;用不同溶剂进行提取;对氨基酸、可溶性碳水化合物、蔗糖、酚和生物碱进行定量;并进行生物测定,以确定它们使 N. falciformis 腐烂番石榴幼苗根部的能力。NP 根渗出物比 NF 根渗出物富含氨基酸、碳水化合物和蔗糖。只有 NP-03 和 NP-04 才能使真菌根部腐烂。然后通过色谱硅胶柱对 NP-03 进行连续分馏。每一步都对主要馏分进行生物测定。利用高效液相色谱法、核磁共振法、质谱法、能量色散 X 射线荧光法和计算法对使真菌根部腐烂的最终馏分进行了分析,最终确定 1,5-二硝基生物脲为主要物质。总之,肠杆菌寄生导致番石榴根部渗出物富集,这可能有利于根瘤菌圈中能够产生 1,5-二硝基生物脲的微生物。生物尿素是一种已知的植物毒性物质,它的积累可能会阻碍番石榴根部的生理机能和对镰刀菌的先天免疫力。
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来源期刊
Journal of nematology
Journal of nematology 生物-动物学
CiteScore
2.90
自引率
7.70%
发文量
40
审稿时长
14 weeks
期刊介绍: Journal of Nematology is the official technical and scientific communication publication of the Society of Nematologists since 1969. The journal publishes original papers on all aspects of basic, applied, descriptive, theoretical or experimental nematology and adheres to strict peer-review policy. Other categories of papers include invited reviews, research notes, abstracts of papers presented at annual meetings, and special publications as appropriate.
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